DeepSoft provides specialized software solutions and plugins for reservoir simulation and modeling, including:
- PLIM, which calculates water injection pressure limits to avoid fault reactivation in reservoirs
- SeisFlow, a plugin integrating S2S seismic modeling libraries with Petrel to generate synthetic seismic data from simulations
- Twister-Ocean, a plugin exposing Twister computational libraries for reservoir objects within Petrel
- Turmy, a plugin wrapping a numerical model of meandering channel evolution over time
- DEnDE, originally a standalone seismic attribute software developed as a Petrel plugin by DeepSoft
Stay up-to-date on the latest news, events and resources for the OpenACC community. This month’s highlights covers the newly released PGI 19.7, the upcoming 2019 OpenACC Annual Meeting, GPU Bootcamp at RIKEN R-CCS, a complete schedule of GPU hackathons and more!
This document summarizes a project that aims to improve computational efficiency in solving large sparse linear systems for modeling ablative thermal protection system surfaces by introducing GPU techniques. Three approaches have been attempted so far: 1) using the AMGX library, 2) using new sparse matrix subclasses to perform matrix-vector products on the GPU, and 3) adjusting the CUDA_ITSOL library. The source code uses the PETSc library and takes multiple rounds to converge. Profiling found most time is spent in preconditioning and solving phases, which could benefit from GPU acceleration. The next step is to fully integrate AMGX and test different CPU-GPU ratios. Version control tools like Git are used to manage the code and track changes
Stay up-to-date on the latest news, events and resources for the OpenACC community. This month’s highlights covers highlights from the OpenACC Annual Meeting, SC19, recent GPU Hackathons and more!
This document provides a summary of highlights from the 2020 GPU Technology Conference (GTC) related to OpenACC, including:
- OpenACC is a programming model for parallel computing on CPUs and GPUs using compiler directives.
- GTC 2020 content included sessions on using OpenACC across various disciplines like weather modeling, seismic imaging, and computational fluid dynamics.
- Presentations, tutorials, posters, and "Connect with Experts" sessions provided information on OpenACC optimizations, multi-GPU programming, and applications in various domains.
Stay up-to-date with the OpenACC Monthly Highlights. July's edition covers the OpenACC Summit 2021, upcoming GPU Hackathons and Bootcamps, PEARC21 panel review , recent research, new resources and more!
BREEZE Incident Analyst is modeling software that uses dispersion, fire, and explosion models to predict the impacts of accidental chemical releases. It contains models like DEGADIS and SLAB to predict toxic gas dispersion, as well as pool fire, BLEVE, and explosion models. The software integrates with GIS tools and has an intuitive interface to easily enter scenario details and view graphical and tabular results. It contains a chemical database of over 150 chemicals to facilitate modeling.
Stay up-to-date with the OpenACC Monthly Highlights. June's edition covers the OpenACC Summit 2021, NVIDIA GTC'21 on-demand sessions, upcoming GPU Hackathons and Bootcamps, Intersect360 Research HPC market forecast, recent research, new resources and more!
Brasil es un gran mercado audiovisual en América Latina debido a su gran población, economía y número de usuarios de internet y banda ancha. El documento discute las consideraciones sobre el Rio Content Market de 2013, incluyendo las tendencias de producción colaborativa, narración dinámica y contenido marca. Finalmente, resume las entrevistas realizadas sobre la creación y comercialización de formatos de televisión para diferentes mercados.
Stay up-to-date on the latest news, events and resources for the OpenACC community. This month’s highlights covers the newly released PGI 19.7, the upcoming 2019 OpenACC Annual Meeting, GPU Bootcamp at RIKEN R-CCS, a complete schedule of GPU hackathons and more!
This document summarizes a project that aims to improve computational efficiency in solving large sparse linear systems for modeling ablative thermal protection system surfaces by introducing GPU techniques. Three approaches have been attempted so far: 1) using the AMGX library, 2) using new sparse matrix subclasses to perform matrix-vector products on the GPU, and 3) adjusting the CUDA_ITSOL library. The source code uses the PETSc library and takes multiple rounds to converge. Profiling found most time is spent in preconditioning and solving phases, which could benefit from GPU acceleration. The next step is to fully integrate AMGX and test different CPU-GPU ratios. Version control tools like Git are used to manage the code and track changes
Stay up-to-date on the latest news, events and resources for the OpenACC community. This month’s highlights covers highlights from the OpenACC Annual Meeting, SC19, recent GPU Hackathons and more!
This document provides a summary of highlights from the 2020 GPU Technology Conference (GTC) related to OpenACC, including:
- OpenACC is a programming model for parallel computing on CPUs and GPUs using compiler directives.
- GTC 2020 content included sessions on using OpenACC across various disciplines like weather modeling, seismic imaging, and computational fluid dynamics.
- Presentations, tutorials, posters, and "Connect with Experts" sessions provided information on OpenACC optimizations, multi-GPU programming, and applications in various domains.
Stay up-to-date with the OpenACC Monthly Highlights. July's edition covers the OpenACC Summit 2021, upcoming GPU Hackathons and Bootcamps, PEARC21 panel review , recent research, new resources and more!
BREEZE Incident Analyst is modeling software that uses dispersion, fire, and explosion models to predict the impacts of accidental chemical releases. It contains models like DEGADIS and SLAB to predict toxic gas dispersion, as well as pool fire, BLEVE, and explosion models. The software integrates with GIS tools and has an intuitive interface to easily enter scenario details and view graphical and tabular results. It contains a chemical database of over 150 chemicals to facilitate modeling.
Stay up-to-date with the OpenACC Monthly Highlights. June's edition covers the OpenACC Summit 2021, NVIDIA GTC'21 on-demand sessions, upcoming GPU Hackathons and Bootcamps, Intersect360 Research HPC market forecast, recent research, new resources and more!
Brasil es un gran mercado audiovisual en América Latina debido a su gran población, economía y número de usuarios de internet y banda ancha. El documento discute las consideraciones sobre el Rio Content Market de 2013, incluyendo las tendencias de producción colaborativa, narración dinámica y contenido marca. Finalmente, resume las entrevistas realizadas sobre la creación y comercialización de formatos de televisión para diferentes mercados.
Arthur C. Volta has extensive experience designing and developing various technology projects including:
1) The Proportional Keystroke Scanner, the first device of its kind to provide software compatibility with IBM PC software and assist people with spinal cord injuries.
2) Ability Systems motor control software called Indexer LPT, which has sold thousands of copies and provides motion control for automation equipment.
3) Specialized software for applications like automated order fulfillment systems and sensor calibration equipment.
WSO2 Complex Event Processor (WSO2 CEP) helps identify the most meaningful events and patterns from multiple data sources, analyze their impacts, and act on them in real time. 100% open source, it allows you a set up a more agile connected business, responding to urgent business situations with both speed and precision.
Leonard Timmons has over 30 years of experience in software engineering, systems design, and database administration. He has a B.E.E. from Georgia Tech and has worked at Advanced Control Systems since 1992 where he has led numerous projects involving network, database, virtualization, and industrial control system design. Prior to that, he worked as an independent consultant on software and systems for companies like Hayes Microcomputer Products, Scientific Atlanta, and Motorola.
The document discusses a PDEng project at Océ to analyze using Scenario Based Programming to develop embedded control software. The project involved changing mindssets to the new paradigm and extending Océ's development environment to support Live Sequence Charts. As a result, part of a printer finisher's functionalities were implemented using LSCs. While the paradigm was found powerful, the tools require more development, so incorporating LSCs fully was not viable, but the project helped Océ understand strengths and limitations of Scenario Based Programming.
The PetrisWINDS Recall Applications provide tools for integrating, analyzing, and interpreting borehole log and core data. It includes the Impetus suite for processing and interpreting borehole images and the Petrophysics suite for deterministic petrophysical analysis. The applications provide a 360-degree view of raw, processed, and interpreted borehole data and seamlessly integrate with all other borehole data sources. It aims to help oil and gas companies maximize return on investment from their borehole data by enabling geologists, engineers, and other teams to gain insights.
This calculator has been developed by me. It gives high precision results which
Normal calculator can not give. It is helpful in calculations for Space technology,
Supercomputers, Nano technology etc. I can give this calculator to interested people.
This document discusses the development of executable models of fissile reactor systems for hardware simulation and design. The models are converted from DESIRE simulation models to C++ code using an automatic conversion process. This allows the models to be run on Windows computers and used for engineering design and training simulations. The conversion process and numerical integration engine are described. The document also outlines the engineering design interface and simulator backend that have been developed to utilize the executable models.
The document provides a history of Digital Wave Simulator (DWS) from its origins in the 1970s to the present. It details how DWS evolved from early digital wave algorithms developed by the author at CSELT to commercial programs like Sprint and Presto. It describes applications of DWS at companies like Cisco and the development of the THRIS and HiSAFE testing environments. Most recently, DWS has been incorporated into the Spicy SWAN hybrid simulation platform to provide circuit simulation capabilities. Over 500 person-years have been spent developing DWS and its applications for electronic design.
The document details the history of Digital Wave Simulator (DWS), a digital wave analysis simulation software developed by Piero Belforte beginning in the 1970s. It describes how DWS originated from Belforte's work using digital wave algorithms for electrical simulation. Belforte later founded HDT to develop DWS into a general purpose simulator called SPRINT. HDT also created PRESTO for post-layout simulation and collaborated with CSELT to develop THRIS, a hardware qualification tool that became an Italian telecom standard. After HDT closed, Belforte continued independent DWS development through his company SWAN. The document provides links to additional information, applications, publications and the manhours estimated to have been spent
The document details the history of Digital Wave Simulator (DWS), a digital wave analysis simulation software developed by Piero Belforte beginning in the 1970s. It describes how DWS originated from Belforte's work using digital wave algorithms for electrical simulation. Belforte later founded HDT to develop DWS into a general purpose simulator called SPRINT. HDT also created PRESTO for post-layout simulation and collaborated with CSELT on THRIS, a hardware qualification tool based on DWS. After HDT closed, Belforte continued independent DWS development through his company SWAN. Recent projects include Spicy SWAN, adding DWS to ngspice for hybrid simulation, and using DWS in Hi
EFFECTIVE EMBEDDED SYSTEMS SOFTWARE DESIGN METHODOLOGIEScscpconf
This document discusses effective embedded systems software design methodologies. It begins with an introduction to the need to improve engineering curricula to include subjects like embedded systems and multiprocessor system-on-chip design. It then discusses multiprocessor system-on-chip and embedded programming. Key steps in the design methodology are outlined, including system specification, hardware/software partitioning, use of real-time operating systems, and embedded C programming. Applications of embedded systems are also mentioned. The document concludes that the demand for skilled graduates in embedded systems will increase and subjects must be taught effectively to meet industry needs.
Gas Liquid Engineering - Presentation BrazilSistema FIEB
Apresentação de Peter Griffin, da Gas Liquid Engineering, durante o evento promovido pelo Sistema FIEB, Fundamentos da Exploração e Produção de Não Convencionais: a Experiência Canadense.
CXperf is a parallel application analysis tool that helps developers improve the performance of applications on Exemplar parallel servers. It analyzes applications, supports multiple parallel programming models, and interprets results visually. CXperf gathers performance measurements during application execution and then provides graphical analysis to help identify optimization opportunities. This helps developers fine-tune applications to more efficiently utilize complex HPC architectures.
Prime is a software for an interpretative processing of 2D/3D/4D/3C/4C onshore and offshore wide-azimuth or narrow-azimuth complex seismic data. The software includes solutions for the heterogeneous upper part compensation, salt domes, strongly dislocated tectonics, shallow and transit zones, wave field transformation, demultiple, deghosting and much more technologies.
Prime has been developed as a link between processing and interpretation and provides advanced technologies for interpretative seismic data processing. These technologies give the possibilities to account for a priori information, process data in depth domain and operate with interval velocities starting from the first stages of a project.
Prime Cloud enables full seismic data processing graph on cloud computing resources.
Prime Cloud virtual cluster deployment takes several minutes, its configuration can be modified in the course of operation depending on the required performance.
Groups of virtual machines are automatically created for each computing job taking into account its requirements and special features.
+ Short time frames for project implementation
+ High computing performance
+ Cost optimisation:
- Dynamic configuration of computing resources
- No hardware downtime
- Per-second billing
Data privacy is ensured through the isolation of virtual resources and secure communication channels.
Santanu Chatterjee has 19 years of experience in software development. He has expertise in C/C++ and has worked on projects in various industries including shipping, finance, data processing and biotechnology. Some of his roles and responsibilities have included requirements analysis, design, programming, documentation, debugging, testing, and managing testing teams. He has worked on software for instrumentation controlling, peptide synthesis, diabetes management, and chemical tanker load planning.
Mud Reporting: Streamlined Process and Data Managementpvisoftware
This white paper describes a mud reporting software called MUDPRO that was developed by Pegasus Vertex, Inc. and Anchor Drilling Fluids to streamline the mud reporting process. The software allows mud engineers to record daily mud data, generate reports, and transmit data. It also enables management to review data, generate end-of-well recaps, and compare data between multiple wells. The software provides flexible functions like well carryover and past data editing. It also includes engineering calculations, customizable reporting, and data management tools to help optimize drilling operations.
The document provides a summary of an experienced software engineer with over 10 years of experience in systems engineering, real-time software development, testing and project consulting. The engineer has expertise in model-based development, systems engineering, testing and collaboration tools from IBM Rational. Several projects are summarized involving development of combat management systems, model-based systems engineering, model-driven development, collaborative lifecycle management and static analysis.
Arthur C. Volta has extensive experience designing and developing various technology projects including:
1) The Proportional Keystroke Scanner, the first device of its kind to provide software compatibility with IBM PC software and assist people with spinal cord injuries.
2) Ability Systems motor control software called Indexer LPT, which has sold thousands of copies and provides motion control for automation equipment.
3) Specialized software for applications like automated order fulfillment systems and sensor calibration equipment.
WSO2 Complex Event Processor (WSO2 CEP) helps identify the most meaningful events and patterns from multiple data sources, analyze their impacts, and act on them in real time. 100% open source, it allows you a set up a more agile connected business, responding to urgent business situations with both speed and precision.
Leonard Timmons has over 30 years of experience in software engineering, systems design, and database administration. He has a B.E.E. from Georgia Tech and has worked at Advanced Control Systems since 1992 where he has led numerous projects involving network, database, virtualization, and industrial control system design. Prior to that, he worked as an independent consultant on software and systems for companies like Hayes Microcomputer Products, Scientific Atlanta, and Motorola.
The document discusses a PDEng project at Océ to analyze using Scenario Based Programming to develop embedded control software. The project involved changing mindssets to the new paradigm and extending Océ's development environment to support Live Sequence Charts. As a result, part of a printer finisher's functionalities were implemented using LSCs. While the paradigm was found powerful, the tools require more development, so incorporating LSCs fully was not viable, but the project helped Océ understand strengths and limitations of Scenario Based Programming.
The PetrisWINDS Recall Applications provide tools for integrating, analyzing, and interpreting borehole log and core data. It includes the Impetus suite for processing and interpreting borehole images and the Petrophysics suite for deterministic petrophysical analysis. The applications provide a 360-degree view of raw, processed, and interpreted borehole data and seamlessly integrate with all other borehole data sources. It aims to help oil and gas companies maximize return on investment from their borehole data by enabling geologists, engineers, and other teams to gain insights.
This calculator has been developed by me. It gives high precision results which
Normal calculator can not give. It is helpful in calculations for Space technology,
Supercomputers, Nano technology etc. I can give this calculator to interested people.
This document discusses the development of executable models of fissile reactor systems for hardware simulation and design. The models are converted from DESIRE simulation models to C++ code using an automatic conversion process. This allows the models to be run on Windows computers and used for engineering design and training simulations. The conversion process and numerical integration engine are described. The document also outlines the engineering design interface and simulator backend that have been developed to utilize the executable models.
The document provides a history of Digital Wave Simulator (DWS) from its origins in the 1970s to the present. It details how DWS evolved from early digital wave algorithms developed by the author at CSELT to commercial programs like Sprint and Presto. It describes applications of DWS at companies like Cisco and the development of the THRIS and HiSAFE testing environments. Most recently, DWS has been incorporated into the Spicy SWAN hybrid simulation platform to provide circuit simulation capabilities. Over 500 person-years have been spent developing DWS and its applications for electronic design.
The document details the history of Digital Wave Simulator (DWS), a digital wave analysis simulation software developed by Piero Belforte beginning in the 1970s. It describes how DWS originated from Belforte's work using digital wave algorithms for electrical simulation. Belforte later founded HDT to develop DWS into a general purpose simulator called SPRINT. HDT also created PRESTO for post-layout simulation and collaborated with CSELT to develop THRIS, a hardware qualification tool that became an Italian telecom standard. After HDT closed, Belforte continued independent DWS development through his company SWAN. The document provides links to additional information, applications, publications and the manhours estimated to have been spent
The document details the history of Digital Wave Simulator (DWS), a digital wave analysis simulation software developed by Piero Belforte beginning in the 1970s. It describes how DWS originated from Belforte's work using digital wave algorithms for electrical simulation. Belforte later founded HDT to develop DWS into a general purpose simulator called SPRINT. HDT also created PRESTO for post-layout simulation and collaborated with CSELT on THRIS, a hardware qualification tool based on DWS. After HDT closed, Belforte continued independent DWS development through his company SWAN. Recent projects include Spicy SWAN, adding DWS to ngspice for hybrid simulation, and using DWS in Hi
EFFECTIVE EMBEDDED SYSTEMS SOFTWARE DESIGN METHODOLOGIEScscpconf
This document discusses effective embedded systems software design methodologies. It begins with an introduction to the need to improve engineering curricula to include subjects like embedded systems and multiprocessor system-on-chip design. It then discusses multiprocessor system-on-chip and embedded programming. Key steps in the design methodology are outlined, including system specification, hardware/software partitioning, use of real-time operating systems, and embedded C programming. Applications of embedded systems are also mentioned. The document concludes that the demand for skilled graduates in embedded systems will increase and subjects must be taught effectively to meet industry needs.
Gas Liquid Engineering - Presentation BrazilSistema FIEB
Apresentação de Peter Griffin, da Gas Liquid Engineering, durante o evento promovido pelo Sistema FIEB, Fundamentos da Exploração e Produção de Não Convencionais: a Experiência Canadense.
CXperf is a parallel application analysis tool that helps developers improve the performance of applications on Exemplar parallel servers. It analyzes applications, supports multiple parallel programming models, and interprets results visually. CXperf gathers performance measurements during application execution and then provides graphical analysis to help identify optimization opportunities. This helps developers fine-tune applications to more efficiently utilize complex HPC architectures.
Prime is a software for an interpretative processing of 2D/3D/4D/3C/4C onshore and offshore wide-azimuth or narrow-azimuth complex seismic data. The software includes solutions for the heterogeneous upper part compensation, salt domes, strongly dislocated tectonics, shallow and transit zones, wave field transformation, demultiple, deghosting and much more technologies.
Prime has been developed as a link between processing and interpretation and provides advanced technologies for interpretative seismic data processing. These technologies give the possibilities to account for a priori information, process data in depth domain and operate with interval velocities starting from the first stages of a project.
Prime Cloud enables full seismic data processing graph on cloud computing resources.
Prime Cloud virtual cluster deployment takes several minutes, its configuration can be modified in the course of operation depending on the required performance.
Groups of virtual machines are automatically created for each computing job taking into account its requirements and special features.
+ Short time frames for project implementation
+ High computing performance
+ Cost optimisation:
- Dynamic configuration of computing resources
- No hardware downtime
- Per-second billing
Data privacy is ensured through the isolation of virtual resources and secure communication channels.
Santanu Chatterjee has 19 years of experience in software development. He has expertise in C/C++ and has worked on projects in various industries including shipping, finance, data processing and biotechnology. Some of his roles and responsibilities have included requirements analysis, design, programming, documentation, debugging, testing, and managing testing teams. He has worked on software for instrumentation controlling, peptide synthesis, diabetes management, and chemical tanker load planning.
Mud Reporting: Streamlined Process and Data Managementpvisoftware
This white paper describes a mud reporting software called MUDPRO that was developed by Pegasus Vertex, Inc. and Anchor Drilling Fluids to streamline the mud reporting process. The software allows mud engineers to record daily mud data, generate reports, and transmit data. It also enables management to review data, generate end-of-well recaps, and compare data between multiple wells. The software provides flexible functions like well carryover and past data editing. It also includes engineering calculations, customizable reporting, and data management tools to help optimize drilling operations.
The document provides a summary of an experienced software engineer with over 10 years of experience in systems engineering, real-time software development, testing and project consulting. The engineer has expertise in model-based development, systems engineering, testing and collaboration tools from IBM Rational. Several projects are summarized involving development of combat management systems, model-based systems engineering, model-driven development, collaborative lifecycle management and static analysis.
1. Portfolio
Solutions for high complexity problems in several areas, such as:
• Corporative Systems
• Geophysics and Geology
• Petroleum reservoir engineering
• Computational Fluid dynamics – CFD
• Medicine and Healthcare
• Consulting in software development
2. PLIM
PLIM is a software program capable of calculating the limit of the
water injection pressure in a reservoir utilizing as the injection
pressure limit the criteria of faults reactivation of such reservoir.
Using geometric parameters from the reservoir and from the
reservoir faults, the software searches in a data base with results
from mechanical analysis executed before, in finite elements, the
areas in which the injection pressure exceeds the limit pressure.
The modeling and the development of the calculus methodology
for these critical pressures is the product of research and
development made by Petrobras.
Deepsoft developed for Petrobras, in the form of a plug-in, a pre
and post PLIM (Petrobras) software processor into the
Schlumberger Petrel software. In this plug-in, the result of the
Eclipse oil reservoir simulations are imported and the data is
analyzed by the Petrobras software (PLIM). The plug-in also has a
robust result inspection interactive tool that allows the user to
easily navigate between the PLIM software results, all this through
some simple clicks in the 3D reservoir models.
3. SeisFlow
The S2S software solves one of the greatest challenges in today’s
geophysics inside of the Seismic 4D world. The software S2S –
Simulator-to-Seismic – consists in a library capable of, from a
petroleum reservoir simulation’s result, generating a synthetic
seismic cube that corresponds to a time step of that simulation.
This synthetic seismic data can then be used in several ways, such
as for history matching or for performing adjustments in the
reservoir simulation model itself from comparisons realized
between the generated synthetic seismic data and a real seismic
data extracted from the corresponding field.
DeepSoft Company develops the Petrel plug-in SeisFlow that is
acts as a “bridge” between the S2S libraries and the Petrel
software. The plugin SeisFlow for Petrel allows, from the execution
of existing algorithms present in the S2S libraries kernel, to the S2S
native user interfaces usage directly from inside of Petrel software.
4. Twister
Twister-Ocean is a plugin for the Schlumberger Petrel software,
responsible for integrating the Twister software into Petrel. The
Twister software is a computational library that models several
objects from the petroleum reservoir engineering and geophysics
areas. These objects are exposed through a consistent public API
(Application Programming Interface), allowing the usage of these
data from other applications.
DeepSoft Company’s role in Twister project consists mainly in the
development of the Twister-Ocean software. The Twister-Ocean
software is a plugin developed over the Ocean framework capable
of loading Twister library into Petrel software, allowing Petrel users
to use Twister algorithms from inside of Petrel itself, together with
the software’s data. Twister-Ocean plug-in also makes possible the
usage of Twister library from other Petrel plugins, acting as a “base
plugin”. The plugin for Petrel Twister-Ocean also makes available
Twister native user interface components (windows, plots, etc.), all
directly from inside of Petrel software.
5. Turmy
Turmy is a software program that numerically models the
evolution, over time, of meandering channel in subaqueous
environment. In order to do this, Turmy solves, analytically, a
simplified Navier-Stokes equation, in order to calculate the chains
velocity that allows the definition of portions eroded and
deposited in each time step. The final result is a model of the
sediment’s distribution carried by the meandering channel. The
software was developed by the MINES ParisTech with the
sponsorship and technical participation of some oil companies
(including Petrobras), all owning exclusive rights over the code and
commercial use of it.
The DeepSoft participation in Turmy project involves, initially, the
creation of wrappers for .NET framework over the kernel
numerical code, allowing its utilization from any application
developed on .NET framework. Naturally, this ensures the use of
this numerical kernel by your Ocean plug-in, also under
development.
6. DEnDE
The DEnDE software consists in the computing of a set of
seismic attributes which are based on a spectral
decomposition that is calculated by the continuous
wavelet transformation method. In order to achieve the
best possible results, DEnDE software makes strong use of
interactive and graphical tools such as seismic probes,
graphs, etc., which helps the user with the algorithm’s
parameterization as well as with the analysis of the
problem. DEnDE software has previously been developed
by Petrobras as a standalone application, further on
becoming a Petrel plug-in developed by DeepSoft.
In the version developed by DeepSoft, the DEnDE seismic
attributes and algorithms started to work in fully
integration with the Petrel software program, which
ended up bringing huge gains of productivity to its users.
7. ERPD
ERPD is the name given by DeepSoft and LNCC -
Laboratório Nacional de Computação Científica to a
project that is included in the thematic research
network Simulação e Gerenciamento de Reservatórios -
SIGER. The ERPD consists in the development of a
simulation software of fluid flow in oil reservoirs with
deformation of the porous media, including
parameterization and development of numerical,
mathematical and computational models for the
simulation of the phenomena of fluid flow in deformable
porous media with application the oil reservoir
engineering.
The contribuitions of DeepSoft in the ERPD project were
mostly improvements in the parameter files of simulators,
including the concept of keywords, including structural
flexibilities and file formats, among others.
8. YouFOAM
Computational fluid dynamics software
• CFD software built over the numerical platform OpenFOAM®.
• Partnership with Wikki Brasil (www.wikki.com.br) engineering company.
• Supported by Petrobras, which acquired 10 perpetual licenses.
Computer Science
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Engineering
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